Method and Apparatus for Retrieving and Installing a Drill Lock Assembly for Casing Drilling

ABSTRACT

A method of installing a drilling tool at a lower end of a string of casing suspended in a borehole employs a setting tool run by wireline. The setting tool is latched to a drilling tool connected a drill lock assembly. After landing in a profile sub at the lower end of the casing, fluid pressure is applied to the interior of the string of casing to actuate the setting tool. The setting tool moves to latch the drill lock assembly to the sub so that torque may be transmitted between the profile sub and the drill lock assembly. The setting tool movement also releases the setting tool from the drill lock assembly for retrieval.

FIELD OF THE INVENTION

This invention relates in general to drilling wells with a string of casing, and in particular to a method and an apparatus for installing and retrieving a drill lock apparatus and drill bit from the lower end of the casing.

BACKGROUND OF THE INVENTION

Most oil and gas wells are drilled using drill pipe. At selected depths and at the total depth, the operator removes the drill pipe and drill bit, then lowers a string of casing into the wellbore and cements it in place. If the operator needs to replace the drill bit, he trips the drill bit out of the wellbore with the drill pipe, then runs the drill bit back into the wellbore with the drill pipe.

Another approach, referred to as casing drilling, involves the use of the casing as the drill string rather than drill pipe. The drill bit may be secured to the lower end of the casing and cemented in place along with the casing after reaching the desired depth. Alternately, the operator may use a retrievable drill bit assembly. The drilling is accomplished by rotating the casing with a top drive of the drilling rig. Drilling may also be accomplished using a mud motor, which rotates the drill bit relative to the casing.

In current techniques, retrievable drill bits are connected to a drill lock assembly, which is run through the casing to a profile sub at the lower end of casing. The drill lock assembly has a set of stop dogs that are biased outward and land on a shoulder provided in the profile sub. The drill lock assembly also has torque keys that are biased outward for engaging longitudinal slots provided in the profile sub. In addition, the drill lock assembly has an axial lock mechanism that is moved outward into engagement with a profile in the profile sub to prevent upward movement of the drill lock assembly in the profile sub. The drill lock assembly may be run by wireline, drill pipe, or it may be pumped into and out of the casing. If the drill lock assembly is to be run by wireline, a wireline running tool is used to lower the drill lock assembly into the profile sub, set it, then release from it to be retrieved back to the surface.

To retrieve the drill lock assembly by wireline, the operator attaches a retrieval tool to the wireline, lowers it into engagement with the drill lock assembly, releases the drill lock assembly from the profile sub, and retrieves it to the surface. Similarly, if drill pipe is utilized, a retrieval tool is employed for retrieving.

Generally, the drill lock assembly and running tools are complex, having many parts that must operate correctly. The environment in which the drill lock assembly is located is severe, having drilling mud and cuttings that may accumulate on top of the drill lock assembly. Further, lost circulation material is often added to mud used in casing drilling operations and it has the ability to hamper or foul operation of mechanical tools. Casing drilling is often used in wells with severe lost circulation problems. Provisions must be made for retrieving the drill lock assembly in the event that it is stuck and can not be retrieved without over pulling on the wireline.

SUMMARY OF THE INVENTION

The drilling tool may be installed with a wireline tool under this method by securing the drilling tool to a drill lock assembly. A wireline setting tool is latched to the drill lock assembly, and the combined assemblies are lowered into the profile sub at the lower end of the string of casing. Then, the operator exerts fluid pressure to the interior of the string of casing to actuate the setting tool, which in turn latches the drill lock assembly to the profile sub. The operator then retrieves the setting tool.

Preferably, applying fluid pressure also causes the setting tool to release from the drill lock assembly without the need for pulling upward. The step of setting the drill lock assembly may include stroking a cam member axially from a run-in position to a locked position, which causes the lock member to extend radially outward into engagement with the profile sub. Preferably, a retainer snaps into place once the cam member reaches the locked position, locking the cam member of the drill lock assembly in the locked position.

Preferably, the movement of the cam member to the locked position also releases a latch mechanism between the setting tool and the drill lock assembly. If the cam member fails to move fully to the locked position, the operator may apply fluid pressure again to the interior of the casing and at a level greater than initially to release the latch mechanism between the setting tool and the drill lock assembly.

The wireline setting tool has a setting tool seal that engages the inner diameter surface of the casing as the setting tool is lowered down the casing. Creating a fluid pressure differential across the setting tool seal causes a portion of the setting tool to move downward after the drill lock assembly has landed in the profile sub.

The wireline retrieval tool may also have a seal for engaging the casing. After the retrieval tool lands in engagement with the drill lock assembly, applying fluid pressure to the casing causes the retrieval tool to engage the drill lock assembly. Preferably, the retrieval tool has a grapple on the lower end that engages a profile in the drill lock assembly when the retrieval tool initially lands on the drill lock assembly. Downward movement of the lower body portion of the retrieval tool in response to fluid pressure secures the grapple to the profile so that the assembly may be lifted. The operator pulls upward on the retrieval tool after it is secured to the drill lock assembly to release the drill lock assembly. The upward pulling force may be assisted by hydraulic jars mounted with the retrieval tool. If the drill lock assembly is stuck, the operator may disengage the wireline retrieval tool from the drill lock assembly by again applying fluid pressure against the setting tool seal to move the lower body portion past its lower position, thereby releasing the grapple from the drill lock assembly.

A mechanical retrieval tool having a similar grapple may also be employed with drill pipe. The grapple of the mechanical retrieval tool will engage the drill lock assembly in the same manner as the wireline retrieval tool.

BRIEF DESCRIPTION OF THE DRAWINGS

FIGS. 1A and 1B comprise a schematic sectional view illustrating a drill lock assembly attached to a profile sub at the lower end of a string of casing, and a wireline setting tool being retrieved.

FIGS. 2A-2D comprise a sectional view of the setting tool and drill lock assembly of FIGS. 1A and 1B, prior to setting.

FIGS. 3A-3D comprise a sectional view similar FIGS. 2A-2D, but showing a subsequent step wherein an upper portion of the setting tool has moved downward relative to the lower portion of the setting tool to set the drill lock assembly.

FIGS. 4A and 4B comprise a vertical sectional view of the drill lock assembly as shown in FIGS. 3A-3D, but with the setting tool removed.

FIGS. 5A-5D illustrate a retrieval tool in initial engagement with the drill lock assembly of FIGS. 4A and 4B and prior to retrieving.

FIGS. 6A-6C is a sectional view of the retrieval tool of FIGS. 5A-5D but showing the retrieval tool in a subsequent step of retrieving the drill lock assembly.

FIGS. 7A-7D comprise a sectional view of the retrieval tool and drill lock assembly of FIGS. 5A-5C showing a further step of retrieval.

FIG. 8 is a sectional view of the retrieval tool of FIG. 7, showing an emergency release of the retrieval tool from the drill lock assembly taking place.

FIG. 9 is a schematic side view of the retrieval tool of FIG. 8, showing a set of jars connected into the retrieval tool.

FIGS. 10A-10B comprise a sectional view of a retrieval tool for use with drill pipe.

FIGS. 11A-11C comprise a sectional view of the retrieval tool of FIGS. 10A-10B and showing a subsequent sequence.

DETAILED DESCRIPTION OF INVENTION

Referring to FIG. 1, a top drive 11 of a drilling rig is schematically shown. Top drive 11 moves upward and downward in a derrick (not shown) and comprises a rotary power source having a quill 13 that rotates. A casing gripper 15 is attached to quill 13 for rotation with it. Casing gripper 15 has gripping members (not shown) that engage either the inner diameter or outer diameter of conventional casing 17. Casing 17 is shown extending from casing gripper 15 through a rig floor 19 into a borehole 21 (FIG. 1B).

As shown in FIG. 1B, a drill lock assembly (DLA) 23 is shown attached to a profile sub 25 located at the lower end of casing 17. DLA 23 has a tubular housing 27. Spring-biased stop dogs 29 extend out from housing 27 and land on an upward-facing shoulder 31 formed in profile sub 25. DLA 23 also has a set of torque keys 33 for transmitting torque between profile sub 25 and DLA 23. Torque keys 33 are also biased outward by springs in this embodiment and engage mating longitudinal slots in profile sub 25. In this embodiment, DLA 23 also has a set of axial lock members 35. Lock members 35 engage mating recesses in profile sub 25 to prevent upward movement of DLA 23 relative to profile sub 25.

DLA 23 has an upper seal 37 on its exterior arranged for preventing the upward flow of fluid from below. In this example, upper seal 37 is a downward facing cup seal. DLA 23 also has one or more lower seals 39 (two shown) for preventing drilling fluid pumped down from above from flowing around the exterior of DLA 23. In this example, lower seals 39 are also cup seals but face upward rather than downward. Seals other than cup seals may be employed for seals 37, 39.

A drilling assembly 41 attaches to the lower end of DLA 23 and extends downward past casing 17. A drill bit 43 forms a part of drilling assembly 41 and it typically has a reamer 45 for enlarging the wellbore 21. Drilling assembly 41 may have other tools, such as measuring instruments and directional drilling steering tools. The bottom hole assembly comprising DLA 23 and drilling assembly 41 are retrievable from casing 17.

DLA 23 may be secured to profile sub 25 and lowered into borehole 21 with casing 17. For repair or replacing components of the bottom hole assembly, including drill bit 43 or any measuring or steering tools incorporated with drilling assembly 41, the operator may retrieve DLA 23 on wireline and re-install it on wireline. FIG. 1A shows DLA 23 after it has been installed by a wireline setting tool 47, which is shown released from DLA 23 and being pulled back to the surface. Setting tool 47 has an upper body assembly with a seal 50 that enables fluid pressure in casing 17 to be exerted on setting tool 47 for actuating it. Pumping may also be employed, if desired, to convey setting tool 47 to the bottom of casing 17, or the downward movement could be due only to gravity. Setting tool 47 has a latch member 51 that releasably latches to DLA 23. Setting tool 47 has a latch mandrel extension 53 that extends downward from latch member 51 for actuating axial lock members 35 (FIG. 1B).

Referring to FIGS. 2A-2D and FIGS. 3A-3D, setting tool 47 may optionally have as part of its upper body assembly a poppet valve 49 having a valve stem 57. Valve stem 57 is an axially extending rod that has an upper threaded end 59 for connecting to the lower end of wireline 55 (FIG. 1A). A poppet valve element 61 comprising an enlarged flange is located at the lower end of poppet valve stem 57. A restrictive flow area passage 63 leads from the sidewall of poppet valve element 61 to the lower end of poppet valve element 61. Poppet valve stem 57 is carried within a poppet valve housing 65 that has a plurality of upper bypass ports 67 in its sidewall. A coil spring 69 encircles valve stem 57 and is compressed between poppet valve element 61 and the upper end of poppet valve housing 65. Coil spring 69 will normally be in the contracted position of FIG. 3A while the assembly is being lowered into the well due to the weight of the bottom hole assembly. Coil spring 69 moves to the extended position of FIG. 2A after DLA 23 (FIG. 1B) lands in profile sub 25.

Referring still to FIGS. 2A and 3A, a valve sleeve 71 is secured by threads to the lower end of poppet valve housing 65. An outer sleeve 73 is mounted around valve sleeve 71. A valve sleeve band 77 on valve sleeve 61 is in sliding engagement with the inner diameter of outer sleeve 73. Outer sleeve 73 has a shoulder 79 that faces downward and is spaced above band 77 while spring 69 is in the extended position. When compressed, as shown in FIG. 3A, outer sleeve 73 moves downward relative to valve sleeve 71, and shoulder 79 contacts band 77.

As shown in FIGS. 2A and 2B, a seal support 81 is secured by threads to outer sleeve 73. An upward facing seal 50 is mounted to seal support 81, seal 50 being a cup seal in this embodiment. A lower bypass port housing 85 is secured by threads to seal support 81. Lower bypass port housing 85 has a plurality of lower bypass ports 87. While in the closed position in FIG. 2B, valve sleeve 71 blocks flow into or out of lower bypass ports 87. When outer sleeve 73 (FIG. 3A) moves downward relative to valve sleeve 71, it moves lower bypass ports 87 to an open position as shown in FIG. 3B. When lower bypass ports 87 are open, a bypass passage 88 through the interior of valve sleeve 71 is open. Upper bypass ports 67 are always open, but when poppet valve element 61 is in the lower position of FIG. 2A, the flow through bypass passage 88 is restricted because passage 63 has a lesser flow area than the cumulative flow area of upper bypass ports 67.

The purpose of poppet valve 49 is to enable tools to be pumped downwards in non-vertical wells, typically those that have near horizontal sections. When the well has limited deviation, the tools will be pulled in by gravity and spring 69 of the poppet valve is compressed. A bypass conduit is open through lower bypass port 87 since valve sleeve 71 remains in its uppermost position due to gravity pulling the tools attached to sleeve 73 downward. In marginal scenarios, spring 69 may be compressed, partially compressed or at its installed length, thus bypass port 67 may not be open.

If bypass port 67 is closed, which happens when gravity is unable to pull tools into the well and wireline 55 (FIG. 1A) is slacked off, then regardless of the position of valve sleeve 71, pumping down casing 17 will create a pressure drop from flow going through restriction 63. The pressure drop will act on seal 50 (FIG. 2B), thus pushing valve sleeve 71 downward and closing lower bypass port 87. Now, applied fluid pressure in casing 17 from above will act across seal 50 and allow pumping in of the tools.

Referring to FIG. 2B, a latch mandrel 89 is secured to lower bypass housing 85 and extends downward. Latch member 51 of setting tool 47 is mounted to latch mandrel 89 for releasable engagement with DLA 23. Latch member 51 includes in this example a collet latch 91, which comprises a sleeve having longitudinal slots 93 so as to define radially flexible collet fingers or gripping members 95, each of which has grooves on its outer side. The grooves may comprise a thread. Collet latch 91 is mounted around a lower portion of latch mandrel 89. Latch mandrel 89 has a collet support shoulder 97 and a base 99. While in the position of FIG. 2B, base 99 is located within gripping members 95, preventing them from deflecting inward. Collet latch 91 has a detent or snap ring 101 in its upper end, which is located above collet support shoulder 97.

Latch mandrel 89 moves downward relative to collet latch 91 when fluid pressure in casing 17 (FIG. 1) is applied after DLA 23 has landed in profile sub 25 (FIG. 1B). FIG. 3B shows the downward movement of latch mandrel 89, which places shoulder 97 in a lower position and snap ring 101 in engagement with a snap ring shoulder 103. When in the lower position of FIG. 3B, latch mandrel base 99 will be spaced below gripping members 95 rather than in back up engagement as in FIG. 3B. This lower position allows gripping members 95 to flex inward and release from grooved, preferably threaded, profile 105 in the interior of DLA housing 27. Pulling upward on latch mandrel 89 after it is in the position of FIG. 3B will cause gripping members 95 to move upward from DLA 23.

Referring still to FIG. 2B, latch mandrel extension 53 attaches to latch mandrel 89 within latch mandrel base 99. In this example, this attachment comprises a first set of fixed shear pins 111 that are located within mating circular holes. A second set of floating shear pins 113 extend between latch mandrel 89 into elongated holes 115. Shear pins 111 and 113 will shear in an emergency in case DLA housing 27 is prevented by some obstacle from moving downward a full stroke when fluid pressure is acting on upper seal 50 (FIG. 2B). Shearing is accomplished by increasing the fluid pressure in casing 17, and once sheared, latch mandrel 89 is free to move downward relative to latch mandrel extension 53 so as to place its base 99 below gripping members 95. This procedure allows gripping members 95 to release from internal threads 105, enabling setting tool 47 to be retrieved while DLA 23 remains in the well. Rather than having two sets of shear pins 111, 113, only a single set may suffice.

Referring to FIGS. 2C and 3C, DLA 23 has an upper equalization port 117 that extends into bore 119 of DLA housing 27. Upper equalization port 117 is located above DLA seals 37 and 39 and is always open. Another equalization port 121 extends through the sidewall of DLA housing 27 below upper equalization port 117. Equalization port 121 is located between DLA upper seal 37 and DLA lower seals 39. Equalization ports 117, 121 have a closed position, and in this example, closure is handled by an internal sleeve valve 123. Sleeve valve 123 is secured by a shear pin 125 over lower equalization port 121. DLA housing 27 has a internal shoulder 127 that faces upward for retaining sleeve valve 123 after it has been released.

Referring still to FIG. 2C, a cam mandrel 129 is mounted within DLA housing 27 below internal shoulder 127. Cam mandrel 129 has an upward facing internal shoulder 131. Cam mandrel 129 also has an internal profile 133 comprising a set of parallel grooves or threads. Cam mandrel 129 is held in the upper position shown in FIG. 2C by shear pins (not shown) that engage an annular recess 136. Spring-biased shear pins 137 (only one shown) extend from DLA housing 27 inward above recess 136. In the position shown in FIG. 2C, shear pins 137 are biased against an exterior portion of cam member 129, but not located in any grooves or receptacles, so they perform no locking function while cam mandrel 129 is in the upper position. Cam member 129 is movable from the upper or run-in position shown in FIG. 2C to the lower or locked position of FIGS. 3C and D, and when that occurs, a groove 139 will register with shear pins 137. The springs of shear pins 137 will urge them into groove 139 to hold cam mandrel 129 in the lower position, which is shown in FIGS. 3C and 3D.

Referring still to FIG. 3C, latch mandrel 53 has a lower end 135 that will contact internal shoulder 131 of cam mandrel 129 and apply a downward force to push it downward. Referring to FIGS. 2D and 3D, cam mandrel 129 has a cam surface 145 that slides against lock dogs 35 to move them radially outward when cam mandrel 129 moves downward, as shown in FIG. 3D. Springs 143 urge lock dogs 35 radially inward.

FIG. 2D shows a lower equalization port 147 that communicates with bore 119, upper equalization port 117 and equalization port 121 (FIG. 2C). Lower equalization port 147 is below DLA seals 39, and in this example below lock dogs 35. Lower equalization port 147 is closed when cam mandrel 129 is in the lower or locked position and open when cam mandrel 129 is in the upper or run-in position.

As shown in FIG. 2D, stop dogs 29 are pivotally mounted to DLA housing 27 at their upper ends. Springs 149 urge the lower ends outward. Torque keys 33 are mounted below stop dogs 29 for radial movement in this embodiment. Torque key springs 151 urge torque key 33 radially outward. DLA housing 27 has a threaded lower end 155 for attachment to drilling assembly 41. (FIG. 1B).

In the setting operation of the embodiment of FIGS. 2-4, latch member 51 (FIG. 2B) of setting tool 47 is attached to DLA housing 27 by rotating setting tool 47 so that gripping members 95 thread into threads 105. Latch mandrel 89 will be in the upper position with its base 99 providing a backup for the gripping members 95 of collet latch 91. Sleeve valve 123 in FIG. 2C will be closed, blocking equalization ports 121. Cam mandrel 129 will be in an upper position with lock dogs 35 retracted as shown in FIG. 2D. The operator attaches DLA 23 to bottom hole assembly 41 and attaches wireline 55 (FIG. 1A) to upper end 59 of valve stem 57. Wireline 55 (FIG. 1A) will pass through conventional wireline pressure control equipment (not shown) at the drilling rig.

The entire assembly is lowered into the well. Drilling assembly 41 (FIG. 1B) will pass through profile sub 25 (FIG. 1B) and stop dogs 29 will land on shoulders 31. FIGS. 2A-D illustrate setting tool 47 and DLA 23 while in this position. After landing, the operator slacks off on wireline 55 and applies fluid pressure to casing 17. Poppet valve 49 will be in the closed position because of the slacking off of wireline 55. If not in a highly deviated portion of a well, bypass port 87 will also be closed. If in a highly deviated portion of a well, flow through restrictive passage 63 in poppet valve 49 will create a pressure drop that will push lower bypass port 87 closed. The fluid pressure to the interior of casing 17 acts on upper seal 50 (FIG. 2B) to causes latch mandrel 89 to move downward from the position shown in FIG. 2B to the position shown in FIG. 3B. This movement is sufficient to cause latch mandrel extension 53 to shear the shear pins holding cam mandrel 129 in the upper position. Cam mandrel 129 moves from the upper position in FIG. 2C to the lower position in FIG. 3C. As shown in FIG. 3D, lock dogs 35 are pushed outward into locking engagement with a profile in profile sub 25 (FIG. 1B). This movement also causes spring-biased shear pins 137 to align and snap into groove 139 as shown in FIG. 3C, locking cam mandrel 129 in the lower position.

In addition, the downward movement of latch mandrel 89 also causes latch 91 to release as can be seen by comparing FIGS. 2B and 3B. Latch mandrel base 99 moves below collet gripping members 95, enabling them to flex back radially inward slightly. Snap ring 101 engages shoulder 103. After being released, upward movement of wireline 55 (FIG. 1A) pulls upward on valve stem 57, as shown in FIG. 3A, which in turn pulls upward on latch mandrel 89 (FIG. 3B). Latch mandrel 89 is free to move upward because collet 91 will also move upward with it. Enlarged base 99 thus can not move upward into backup engagement with collet gripping members 95. As the operator pulls setting tool 47 above drill lock assembly 23, drill lock assembly 23 will appear as shown in FIGS. 4A and 4B. Cam mandrel 129 will be locked in its lower position. Valve sleeve 123 will still be in its closed position. Spring-biased shear pins 137 will be retaining cam mandrel 129 in the lower position.

In the event wireline setting tool 47 does not release from DLA 23, it may be due to improper setting. That is, latch mandrel extension 53 may not have stroked downward the full stroke for setting cam mandrel 129. In that event, setting tool 47 can be released from DLA 23 by applying fluid pressure again to casing 17, but at a level sufficient to push latch mandrel 89 downward relative to latch mandrel extension 53 to break shear pins 111 and 113 (FIG. 2B). This level is greater than the fluid pressure required to shear the shear pins holding cam mandrel 129 in the upper position. Once shear pins 111, 113 have sheared, latch mandrel base 99 will move below collet gripping members 95, enabling setting tool 47 to be retrieved while leaving DLA 23 in casing 17. Shoulder 97 will retain latch mandrel extension 53 with latch mandrel 89. An inspection by an operator at the surface will show that shear pins 111 and 113 have sheared, informing the operator that DLA 23 is not likely to have been set properly. The operator may then return with a retrieval tool to retrieve DLA 23.

When retrieval of drilling assembly 41 (FIG. 1B) is desired, in this example, the operator lowers on wireline 55 a retrieval tool 157, shown in FIGS. 5A-5C. Retrieval tool 157 has an upper body portion that may be the same as the upper body portion of setting tool 47 (FIG. 1A). The common features may include a poppet valve assembly that has the same components, such as poppet valve element 159 and upper bypass port 161. The upper body portion may also include a valve sleeve 163 and an outer sleeve 165 in the same manner as setting tool 47. As shown in FIG. 5B, retrieval tool 157 may also have an upward facing seal 169 and a lower bypass port 167. These components all work in the same manner as with setting tool 47 and will not be discussed in the same detail. In fact, an operator may use these components both for setting and retrieving, and convert the setting tool to the retrieval tool by removing latch mandrel 89 (FIG. 2B) and attaching a lower body portion 171.

Lower body portion 171 is a tubular assembly that extends downward into DLA 23 when retrieval tool 157 lands. As shown in FIG. 5C, lower body portion 171 has a downward facing shoulder 173 configured to land on sleeve valve 123. A grapple 175 is attached to the lower end of lower body portion 171. Grapple 175 includes an inner tubular collet support 177 about which a cylindrical collet 179 is mounted. Collet 179 has gripping members 181 formed by longitudinal slots extending from the lower end of collet 179. Collet support 177 has a support shoulder 189 on its lower end that contacts the lower end of collet 179. Collet 179 is attached to collet support member 177 by shear pins 191 that engage elongated slots. Collet 179 preferably has a snap ring 193 located above shear pins 191. Snap ring 193 is designed to engage a snap ring receptacle 195 if shear pins 191 shear.

In the operation of retrieval tool 157, the operator attaches it to wireline 55 (FIG. 1A) and lowers it into DLA 23 until shoulder 173 contacts sleeve valve 123 as shown in FIG. 5C. If desired, the operator may assist the downward movement of retrieval tool 157 by pumping fluid down the casing. After contacting sleeve valve 123, applying fluid pressure from the interior of casing 17 to retrieval tool seal 169 (FIG. 5B), shears shear pins 125 (FIG. 5C), causing retrieval tool 157 to move downward to the position shown in FIGS. 6B and 6C. Equalization ports 121 open and retrieval tool 157 moves downward to the position of FIG. 7B. The downward movement places grapple 175 into engagement with threads 133 within cam mandrel 129 as shown in FIG. 7C.

The operator then pulls upward on wireline 55 (FIG. 1A), which pulls cam mandrel 129 to the upper position shown in FIG. 7C. Grapple shoulder 189 moves upward slightly relative to gripping members 181 and exerts an upward an outward force on gripping members 181 that transfers to threads 133. Shear pins 137 break from the upward pull or from activating hydraulic jars 197 (FIG. 9) located between lower body portion 171 and lower bypass housing 87. The upward movement of cam mandrel 129 causes lock dogs 35 to retract, freeing the assembly to be pulled to the surface, and opening lower equalization ports 147. As the assembly is pulled to the surface, the fluid in casing 17 (FIG. 1A) bypasses retrieval tool seal 169 (FIG. 7B) by flowing through bypass passage ports 161 (FIG. 5A) and 167 (FIG. 5B). Fluid also bypasses DSA seals 39 (FIG. 7C) via ports 147 in lower body portion 171 to the annulus.

In the event that DLA 23 is stuck in profile sub 25, which may occur due to accumulation of drilling cuttings, the operator may find that the strength of wireline 55 (FIG. 1A) is inadequate to free DLA 23. If that occurs, the operator can release retrieval tool 157 from cam mandrel 129 by relaxing wireline 55 (FIG. 1A) to allow the poppet spring to close poppet valve element 159 (FIG. 7A). The operator then applies a greater fluid pressure to casing 17 than the pressure used to shear shear pins 125 of sleeve valve 123, This fluid pressure acts on retrieval seal 169 (FIG. 5B) at a pressure sufficient to shear shear pins 191 (FIG. 7C). As shown in FIG. 8, this results in collet support 177 moving downward relative to collet 179 so that shoulder 189 is below gripping members 181. Also, snap ring 193 will now be located above snap ring shoulder 195. Without the backup of shoulder 189, gripping members 189 release from profile 133 allowing the entire retrieval tool 157 to be retrieved to the surface while DLA 23 remains downhole.

Then, as shown in FIG. 9, the operator may choose to attach to retrieval tool 157 a set of hydraulic jars 197 by unscrewing lower body portion 171 (FIG. 7B) from the threads at the lower end of the seal support for seal 169. The operator attaches jars 197 to the same threads, which places jars 197 below the poppet valve assembly, outer sleeve 165 and retrieval tool seal 169. Lower body portion 171 would be attached to the lower end of jars 197. Hydraulic jars 197 may be any type of conventional jars that create impacts in response to pulling wireline 55 (FIG. 1A). Jars 197 are re-cocked by slacking off the tension on wireline 55 after the blow is delivered.

The operator may choose to retrieve DLA 23 with a string of drill pipe rather than wireline, whether or not DLA 23 is stuck within profile sub 25. FIGS. 10A-10B and 11A-11C illustrate such a tool. Mechanical retrieval tool 199 has an upper body 201 and a latch mandrel 203. In this example, they are connected by shear pins 205. Latch mandrel 203 has an upper enlarged end that blocks bypass port 206 while in the upper position shown in FIGS. 10A and 11A. Shear pins 205 allows upper body 201 to move upward relative to latch mandrel 203, which places bypass port 206 above the enlarged upper end of latch mandrel 203, opening bypass port 206.

A grapple 207 is attached to the lower end of latch mandrel 203 as shown in FIG. 10B. Grapple 207 may be the same as grapple 175 (FIG. 5C). Grapple 207 has a collet support member 209 with a shoulder 211 on its lower end. A collet 213 is carried on collet support member 209. Collet 213 has gripping members 215 that are radially flexible. Shear pins 217 engage elongated slots 219 in collet support member 209. A snap ring 221 is carried by grapple 207 and urged inward into contact with collet support member 209 at a point below a groove 221 during the normal ran-in and retrieval operation.

In a retrieving operation using mechanical retrieval tool 199, as retrieval tool 199 enters DLA 23, it contacts and shears sleeve valve 123. The landed position will position grapple 207 within cam mandrel 129 as shown in FIG. 10B. Picking up the drill string causes collet support 209 to move upward slightly and apply an outward force against gripping members 215 to cause them to tightly engage profile 133 of cam mandrel 129. This upward movement shears spring-biased shear pins 137 and moves cam mandrel 129 to the upper position shown in FIG. 11C. Continued upward movement shears shear pins 205, allowing upper body 201 to move upward relative to the upper enlarged end of latch mandrel 203 until the upper enlarged end contacts an upward facing shoulder on upper body 201. This upward movement opens bypass ports 206 to the interior of latch mandrel 203. Opening bypass ports 206 provides a flow path for annulus fluid above upward facing seals 39 to move below and out ports 147 (FIG. 11C) as DLA 23 is retrieved.

Retrieval tool 199 has the ability to wash and clean the area of cam mandrel 129. If needed, fluid can be circulated at high rates through the drill string and the passage in retrieval tool 199. When the fluid exits, the lower end of retrieval tool 199 will jet and flush solids from the passage in DLA 23, thus making components movable that might otherwise be hampered by solids deposits.

In the event DLA 23 is stuck, weight may be imposed on retrieval tool 199 by the drill pipe. Sufficient weight will shear shear pin 217, allowing collet support 209 to move downward relative to collet 213, which releases gripping members 215 from profile 139 in DLA 23. This downward movement also causes snap ring 221 to snap into groove 223, retaining collet 215 in a position above shoulder 211. Upward pull then lifts retrieval tool 199, leaving DLA 23 in place.

DLA 23 could also be installed using drill pipe rather than wireline. To do so, the operator would remove the upper portion of wireline setting tool 47 (FIG. 2B) above latch mandrel 89. The portions removed include poppet valve 47 and upper seal 50. The operator installs an adapter (not shown) on the drill pipe and connects the adapter to the upper end of latch mandrel 89 at the point where lower bypass port housing 85 connected. Unlike the wireline setting operation, the operator does not pump down fluid in the casing to cause DLA 23 to set and the setting tool to release from DLA 23. Instead, after landing DLA 23 in profile sub 25, the operator lowers the drill pipe a short distance to cause lower end 135 (FIG. 2C) to push cone mandrel 129 downward to the set position of FIGS. 3C and 3D. The downward movement simultaneously moves latch mandrel base 99 below gripping member 95 (FIG. 3B) to allow it to release from grooved profile 105. The operator then lifts the drill pipe.

While the invention has been shown in only a few of its forms, it should be apparent to those skilled in the art that it is not so limited but is susceptible to various changes without departing from the scope of the invention. 

1. A method of installing a drilling tool at a lower end of a string of casing suspended in a borehole, comprising: (a) securing the drilling tool to a drill lock assembly; (b) latching a wireline setting tool to the drill lock assembly, lowering the drill lock assembly down the string of casing on wireline and landing the drill lock assembly in a profile sub at the lower end of the string of casing; (c) applying fluid pressure to the interior of the string of casing to actuate the setting tool, which in turn latches the drill lock assembly to the profile sub so that torque may be transmitted between the profile sub and the drill lock assembly; and (d) retrieving the setting tool.
 2. The method according to claim 1, wherein applying fluid pressure in step (c) also causes the setting tool to release from the drill lock assembly.
 3. The method according to claim 1, wherein step (c) comprises: stroking a cam member axially from a run-in position to a locked position, causing a lock member to extend radially outward into engagement with the profile sub; and locking the cam member in the locked position.
 4. The method according to claim 1, wherein step (c) comprises: stroking a cam member axially from a run-in position to a locked position, causing a lock member to extend radially outward into engagement with the profile sub; wherein the movement of the cam member to the locked position also releases a latch mechanism between the setting tool and the drill lock assembly; and if the cam member fails to move fully to the locked position, applying fluid pressure again to the interior of the casing and at a level greater than in step (c) releases the latch mechanism between the setting tool and the drill lock assembly.
 5. The method according to claim 1, wherein: the wireline tool has a setting tool seal that engages an inner diameter surface of the casing as the wireline tool is lowered down the casing; and step (c) comprises applying fluid pressure to the setting tool seal.
 6. The method according to claim 1, wherein: the setting tool has a setting tool seal that engages an inner diameter surface of the casing as the setting tool is lowered down the casing; step (c) comprises applying fluid pressure to the setting tool seal, causing it to move downward after the drill lock assembly has landed in the profile sub; and step (c) further comprises opening a bypass passage extending from below the setting tool seal to above the setting tool seal as the drill lock assembly latches to the profile sub, allowing fluid in the string of casing above the setting tool seal to communicate with fluid in the string of casing below the setting tool seal.
 7. The method according to claim 1, further comprising retrieving the drill lock assembly and the drilling tool after step (e), comprising: lowering on wireline a retrieval tool into latching engagement with the drill lock assembly; applying fluid pressure to the interior of the string of casing to actuate the retrieval tool to release the drill lock assembly from the profile sub; then retrieving the retrieval tool along with the drill lock assembly.
 8. An apparatus for installing a drilling tool in a profile sub at a lower end of a string of casing suspended in a borehole, comprising: a drill lock assembly, comprising: a threaded lower end for securing to a drilling tool; at least one torque key to engage the profile sub for torque transmission; and an axial lock member that is movable radially from a recessed position to an engaged position for locking the drill lock assembly axially to the profile sub; a wireline setting tool releasably coupled to the latching profile of the drill lock assembly for lowering the drill lock assembly down the string of casing on wireline and landing the drill lock assembly in the profile sub, the setting tool comprising: a setting tool seal that engages the interior of the string of casing as the setting tool and drill lock assembly are lowered into the string of casing; and a latch mandrel that moves from an upper position to a lower position in response to fluid pressure in the string of casing acting on the setting tool seal after the drill lock assembly lands in the profile sub, which in turn causes the lock member to move to the engaged position.
 9. The apparatus according to claim 8, wherein the drill lock assembly further comprises a latching profile, and the setting tool further comprises: a latching member that releasably couples to the latching profile, the latching member being released from the latching profile in response to the movement of the latch mandrel from the upper position to the lower position.
 10. The apparatus according to claim 8, wherein the drill lock assembly further comprises: a cam member in engagement with the latch mandrel and the lock member, the cam member being movable from an upper position to a lower position in response to movement of the latch mandrel from its upper position to its lower position, forcing the lock member to move to the engaged position; a spring-biased retaining member that engages the cam member while the cam member is in the lower position to retain the cam member in the lower position; and the retaining member being shearable in response to a selected upward force for retrieving the drill lock assembly.
 11. The apparatus according to claim 8, wherein the drill lock assembly further comprises a receptacle having a grooved internal profile, and the setting tool comprises: a collet member mounted on the latch mandrel, the collet member having gripping members with an external profile that releasably couple to the internal profile of the receptacle; an enlarged diameter portion on an exterior portion of the latch mandrel that is located within the gripping members to prevent the gripping members from deflecting inward and releasing from the receptacle while the setting tool and drill lock assembly are being lowered into the string of casing; and wherein the downward movement of the latch mandrel in response to fluid pressure acting on the setting tool seal moves the enlarged portion out from the gripping members, allowing the collet to release from the receptacle.
 12. The apparatus according to claim 11, wherein the latch mandrel has an upper portion containing the enlarged diameter portion and a lower portion secured by a shearable element to the upper portion, so that in the event the fluid pressure fails to move the latch mandrel downward sufficiently to release the collet member, a greater level of fluid pressure acting on the setting tool will shear the shearable element to allow the upper portion of the latch mandrel to move downward relative to the lower portion of the latch mandrel.
 13. The apparatus according to claim 8, wherein the setting tool further comprises: a bypass passage in the setting tool, having a lower port on an exterior of the setting tool below the setting tool seal and an upper port on the exterior of the setting tool above the setting tool seal; and a bypass valve that blocks flow through the bypass passage while the latch mandrel is in the upper position and allows flow through the bypass passage while the latch mandrel is in the lower position.
 14. A method of retrieving by wireline a drill lock assembly located at a lower end of a string of casing and having a drilling tool secured thereto, the drill lock assembly having a valve held in a closed position by a shearable element, the method comprising: (a) providing a retrieval tool with an upper body assembly and a lower body assembly, the lower body assembly being movable downward from an upper position to a lower position, the lower body assembly having a retrieval tool seal that engages an inner diameter surface of the casing and having a grapple; (b) attaching the upper body assembly to a wireline retrieval tool and lowering the retrieval tool into the casing and into engagement with the drill lock assembly, with the lower body assembly landing on the valve of the drill lock assembly; (c) applying fluid pressure to the interior of the string of casing to act against the seal and move the lower body assembly to the lower position, thereby shearing the shearing element to open the valve; and (d) engaging the grapple with the drill lock assembly and lifting the retrieval tool to retrieve the drill lock assembly.
 15. The method according to claim 14, wherein: the drill lock assembly has a drill lock assembly seal that engages an inner diameter surface of the casing and a drill lock equalization passage extending from below the drill lock assembly seal to above, the drill lock equalization passage being closed by the valve prior to engagement by the retrieval tool; and the opening of the valve in step (c)opens the drill lock equalization passage, allowing fluid in the string of casing above the drill lock assembly seal to communicate with fluid in the string of casing below the drill lock assembly seal.
 16. The method according to claim 14, wherein step (a) further comprises: mounting a set of jars between the lower body assembly and the upper body assembly; and actuating the jars by pulling upward on the wireline to facilitate releasing the drill lock assembly from the profile sub.
 17. The method according to claim 14, wherein: in the event the drilling assembly fails to move upward in step(d), again applying fluid pressure to the interior of the casing to act against the setting tool seal to move the lower body assembly past its lower position and release the grapple from the drill lock assembly; then retrieving the retrieval tool on the wireline without retrieving the drill lock assembly.
 18. A wireline retrieval tool for retrieving a drill lock assembly to which a drilling tool is connected, the drill lock assembly being located at a lower end of a string of casing, the retrieval tool comprising: an upper body assembly for securing to a wireline; a lower body assembly extending downward from the upper body assembly, the lower body assembly being movable relative to the upper body assembly from an upper position to a lower position; a grapple on the lower body assembly for engaging a profile in the drill lock assembly; and a seal on the lower body assembly for engaging an interior of the casing string, so that applying fluid pressure to the interior of the string of casing while holding the upper body assembly stationary will act on the seal to move the lower body assembly to the lower position.
 19. The retrieval tool according to claim 18, further comprising: a bypass passage in the upper body assembly, having a lower port on an exterior of the upper body assembly below the upper body assembly seal and an upper port on the exterior of the upper body assembly above the upper body assembly seal; and a bypass valve that blocks flow through the bypass passage while the lower body assembly is in the upper position and allows flow through the bypass passage while the lower body assembly is in the lower position.
 20. The retrieval tool according to claim 18, wherein the grapple comprises: an upward and outward facing shoulder on the lower body assembly; and a gripping member having an external profile for engaging an internal profile in the drill lock assembly, the gripping member being carried on the shoulder and being radially expansible by the shoulder in response to upward movement of the lower body assembly and the shoulder after the gripping member has contacted the profile in the drill lock assembly.
 21. The retrieval tool according to claim 18, wherein the gripping member comprises a lower portion of a collet, and the retrieval tool further comprises: a shearable member extending between the collet and the lower body assembly, enabling an operator to apply fluid pressure to the seal to move the lower body assembly downward relative to the gripping member, placing the gripping member in an upper position above the shoulder to allow the gripping member to retract from the profile in the event the drill lock assembly fails to move upward; and a detent on the collet that holds the gripping member in an upper position relative to the shoulder.
 22. The retrieval tool according to claim 18, further comprising a set of hydraulic jars located between the upper body assembly and the lower body assembly.
 23. A drill lock assembly for retrievably placing in a profile sub at a lower end of a string of casing, comprising: a tubular housing having a bore, an upper portion with a receptacle having a profile for engagement by a running tool, and a lower portion for engagement to a drilling tool; at least one spring-biased torque key mounted to the housing for engagement with the profile sub to transmit torque therebetween; at least one lock member mounted to the housing, the lock members being radially movable from a recessed position to an engaged position in engagement with the profile sub; a movable cam member in the housing in engagement with the lock members, the cam member being movable axially from an unlocked position to a locked position, thereby pushing the lock members from the recessed position to the engaged position; and a retainer mounted between the cam member and the housing that retains the cam member in the locked position.
 24. The drill lock assembly according to claim 23, wherein the retainer comprises a spring-biased pin.
 25. The drill lock assembly according to claim 23, wherein the retainer is shearable for retrieving the drill lock assembly.
 26. A retrieval tool for retrieving a drill lock assembly to which a drilling tool is connected, the drill lock assembly being located at a lower end of a string of casing, the retrieval tool comprising: an upper body assembly for securing to a string of pipe; a mandrel extending downward from the upper body assembly for entry into the drill lock assembly; an upward and outward facing shoulder on the mandrel; and a gripping member having an external profile for engaging an internal profile in the drill lock assembly, the gripping member being carried on the shoulder and being radially expansible by the shoulder in response to upward movement of the mandrel and the shoulder after the gripping member has contacted the profile in the drill lock assembly.
 27. The retrieval tool according to claim 26, wherein the upper body assembly is axially movable relative to the mandrel from a lower position to an upper position, and the retrieval tool further comprises: a retainer coupled between the mandrel and the upper body assembly for releasably retaining the upper body assembly in the lower position; a bypass port on an exterior of the upper body assembly; an enlarged portion on the mandrel that blocks the bypass port while the upper body assembly is in the lower position; and upward movement of the upper body assembly after the gripping member has engaged the profile in the drill lock assembly releases the retainer to allow the upper body assembly to move to the upper position, which opens the bypass port to allow flow of fluid into a passage in the mandrel.
 28. A method of installing a drilling tool at a lower end of a string of casing suspended in a borehole, comprising: (a) providing a drill lock assembly with an axial lock subassembly; (b) attaching a drilling tool to the drill lock assembly and the drill lock assembly to a running tool and lowering the drill lock assembly into a profile sub in the string of casing; (c) actuating the running tool to cause the lock subassembly to move to an engaged position in engagement with the profile sub; (d) setting a retainer to retain the lock subassembly in the engaged position; and (e) releasing the running tool from the drill lock assembly and retrieving the running tool.
 29. The method according to claim 28, wherein: the lock subassembly of step (a) comprises an axially movable cam member that engages a radially movable lock member; step (c) comprises moving the cam member axially with the running tool; step (d) comprises engaging a spring-biased element with a mating profile when the cam member has reached a full stroke position.
 30. The method according to claim 29, further comprising retrieving the drill lock assembly after step (e) by running a retrieval tool downward into engagement with the cam member and pulling upward, shearing the spring-biased element and allowing the lock subassembly to retract.
 31. The method according to claim 30, wherein the cam member has an interior profile, and running the retrieval tool comprises: attaching a grapple to the running tool and engaging the grapple with the interior profile by straight downward movement of the running tool relative to the drill lock assembly.
 32. A method of installing a drilling tool at a lower end of a string of casing suspended in a borehole, comprising: (a) securing the drilling tool to a drill lock assembly having an axial lock member, a cam member in engagement with the axial lock member, and a latch profile; (b) providing a setting tool with a latch member and a mandrel extending through the latch member, inserting the mandrel into the drill lock assembly and latching the latch member to the latch profile of the drill lock assembly; (c) lowering the setting tool and the drill lock assembly down the string of casing and landing the drill lock assembly in a profile sub at the lower end of the string of casing; (d) moving the mandrel downward relative to the latch member, thereby pushing the cam member downward and causing the axial lock member to extend radially outward into engagement with the profile sub; and wherein (e) the downward movement of the mandrel also releases the latch member of the setting tool from the latch profile of the drill lock assembly, enabling the setting tool to be retrieved.
 33. The method according to claim 32, wherein step (c) comprises attaching the setting tool to a wireline and lowering the setting tool and the drill lock assembly on the wireline.
 34. The method according to claim 32, wherein step (c) comprises attaching the setting tool to a string of pipe and lowering the setting tool and the drill lock assembly on the string of pipe.
 35. An apparatus for installing a drilling tool in a profile sub at a lower end of a string of casing suspended in a borehole, comprising: a drill lock assembly, comprising: a latching profile; a threaded lower end for securing to a drilling tool; at least one torque key to engage the profile sub for torque transmission; an axially movable cam member in engagement with the axial lock member; and an axial lock member that is movable radially from a recessed position to an engaged position with the profile sub in response to downward movement of the cam member for locking the drill lock assembly axially to the profile sub; a setting tool having a latch member releasably coupled to the latching profile of the drill lock assembly for lowering the drill lock assembly down the string of casing and landing the drill lock assembly in the profile sub, the setting tool comprising: a latch mandrel that extends into drill lock assembly in engagement with the cam member, the latch mandrel being downwardly movable relative to the latch member after the drill lock assembly lands in the profile sub, which in turn moves the cam member downward and causes the axial lock member to move to the engaged position; and wherein the downward movement of the latch mandrel also releases the latch member of the setting tool from engagement with the latch profile of the drill lock assembly to enable the setting tool to be retrieved.
 36. The apparatus according to claim 35, wherein the setting tool is adapted to be coupled to a wireline for lowering and retrieving the setting tool.
 37. The apparatus according to claim 35, wherein the setting tool is adapted to be coupled to a string of pipe for lowering and retrieving the setting tool.
 38. The apparatus according to claim 35, wherein the latch member of the setting tool comprises: a collet member mounted on the mandrel, the collet member having gripping members with an external profile that releasably couple to the latch profile of the drill lock assembly; an enlarged diameter portion on an exterior portion of the mandrel that is located within the gripping members to prevent the gripping members from deflecting inward and releasing from the latch profile while the setting tool and drill lock assembly are being lowered into the string of casing; and wherein downward movement of the mandrel relative to the collet member allows the collet to release from the receptacle. 